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NASA Space

NASA Spacecraft Discovers the Universe is Less Crowded Than We Thought (cnet.com) 37

An anonymous reader shares a report: While we might think of space as a vast sea of blackness, all we have to do is look up at night to see that it's punctuated by countless stars, galaxies and even a few planets visible to the naked eye. Scientists recently used data from NASA's New Horizons mission out beyond Pluto to measure just how dark the cosmic background really is. What they found has implications for what we thought we knew about the makeup of the entire universe. In short, space is so dark there can't be as many galaxies out there, adding their faint glow to the backdrop, as astronomers have previously estimated.

"It's an important number to know -- how many galaxies are there?" Marc Postman of the Space Telescope Science Institute said in a statement Tuesday. "We simply don't see the light from 2 trillion galaxies." That was the earlier estimate derived from Hubble Space Telescope observations, but a new study forthcoming in the Astrophysical Journal and co-authored by Postman suggests the total number of galaxies in the universe is probably in the hundreds of billions rather than the trillions. Interestingly, this is closer to an even earlier figure guessing there were around 200 billion galaxies. That was based on Hubble data from the 1990s.

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NASA Spacecraft Discovers the Universe is Less Crowded Than We Thought

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  • by AleRunner ( 4556245 ) on Wednesday January 13, 2021 @11:50AM (#60938486)

    If there are fewer galaxies and we already know what they weigh, does that mean we need even more "dark matter"?

    • Re: (Score:2, Interesting)

      by Dorianny ( 1847922 )
      We don't know how much dark matter is out there only the proportion to regular matter roughly 27% dark %5 matter with the rest being dark energy. Since those calculations don't come from assumptions on the amount of matter in the Universe I don't believe this observation will have any impact on those proportions.
      • To clarify, by "We don't know how much dark matter is out there" I mean that since we can't directly observe it we can only calculate it by multiplying the amount of matter we believe there is by the percentage of dark matter we believe there should be.
        • imo, they just cut back on processing power for the simulation because our astronomical theories have been making the bill too high

    • No. Dark matter is needed to explain observations of gravitational effects within galaxies and galaxy clusters. It doesn't matter a whole lot how many galaxies and clusters are out there in addition to the ones that can be observed. We assume the laws of physics are the same across the universe.

  • Never in their wildest imagination could Christopher Columbus imagine all that garbage in what was seen as a endless ocean. I suspect we are thinking pretty much the same now about space. So unless we manage to kill off humanity im sure we will fill space with garbage also.
    • unlikely, the universe is too damn big. We couldn't fill the volume out to pluto's furthest 50 AU trek with garbage, there isn't enough planetary material.

      • I have confidence in humanity's ability to mine the asteroid fields and turn them into single-use disposable products. I just wish we had the willpower to not do it.

        • wouldn't be a problem, consider all the "garbage" a supernova makes... that just condensed into our solar system 5 billion years ago. Enough plastic garbage will just condense and undergo fusion with a hydrogen and carbon/nitrogen cycle like our sun.

        • by Zak3056 ( 69287 )

          I have confidence in humanity's ability to mine the asteroid fields and turn them into single-use disposable products. I just wish we had the willpower to not do it.

          That doesn't refute the GP's point--turn all the asteroids into trash, and you have... exactly as much mass worth of trash as you do asteroids, which on the scale of the solar system are quite sparse.

  • by whoever57 ( 658626 ) on Wednesday January 13, 2021 @11:54AM (#60938514) Journal

    This has always concerned me about Science Fiction stories that have vast galactic civilizations: is there enough matter to build the massive structures that some story lines envisage?

    • How big are we talking about, there was one story by famous author (40+ years ago) about protagonists using time dilation to go billions of years into the future and seeing a civilization assembling filaments of galaxies to thwart the plans of some opposing one, all before the universe ended.

    • Those intergalactic civilizations also required faster than light travel and communications so that might the part where you have to accept that it is more fiction than science.
    • by smooth wombat ( 796938 ) on Wednesday January 13, 2021 @12:34PM (#60938678) Journal
      Such as Ringworld or Dyson spheres? I believe in Niven's book(s) he does mention the amount of material necessary to build the ring, which is a perfectly reasonable amount based on our solar system alone.

      As for the spheres, such as the ones in Roger McBride Allen's Ring of Charon series, again, there should be sufficient amount of matter in our own solar system to create a sphere around the Sun.

      Considering some of the other solar systems we have detected with multiple planets the size of Jupiter or Saturn, there seems to be enough matter to create these structures so long as you don't go overboard.
  • by l0ungeb0y ( 442022 ) on Wednesday January 13, 2021 @12:01PM (#60938544) Homepage Journal
    Personally, my laypersons opinion would be that while our technology and instruments are constantly improving, we are still a fair ways off from being able to do an accurate measurement on the contents universe as a whole. I would take this study with a good dose of salt
  • by TomGreenhaw ( 929233 ) on Wednesday January 13, 2021 @12:18PM (#60938612)
    TFA says that New Horizons found that the universe's background is darker than expected if there were trillions of galaxies.

    One hypothesis is that there is more dust between galaxies than estimated that is absorbing the light they measured. That dust could be one part of the "dark matter" puzzle. Another hypothesis is that dark matter consists of particles that simply cannot exist (and therefore not detectable here) in the presence of galactic gravitational fields but absorbs light like the matter we can observe.

    Its exciting information that coupled with something like the Hubble Deep Field image for the entire sky would give us useful data.

    My intuition is that this is the case, but certainly not the complete answer for the dark matter puzzle or full evidence useful for estimating the number of galaxies.
    • by Anonymous Coward

      Dark matter is the place holder for the gravitational effects we observe within galactic clusters and acting upon galaxies.

      Distant galaxies and clusters don't come into the calculations, so the number of them wouldn't change anything.

      Total universal mass is calculated from the "cosmic background radiation."
      It's a confusingly similar name, but new horizons is mapping the "cosmic optical background"

      The cosmic background radiation isn't effected by dust at all.
      That energy was produced at a time in the universe

      • Interesting points, I'd mod you up if I could.

        >The cosmic background radiation isn't effected by dust at all ... Also it has already traversed the space it was created to reach Earth.
        Although I hadn't mentioned the cosmic microwave background, since it is redshifted higher frequency radiation, it must have traversed through some space after dust could have formed. Also, I don't understand why dust couldn't affect electromagnetic radiation including microwaves - it certainly does afaik and I used to wo
  • It is interesting data, but there's so many questions in my silly idiot brain about what it means that I have to think there's some astrophysicists literally doing cartwheels trying to come up with explanations.

    Some quick, off the cuff, hobby-level interest in astrophysics ideas:

    • Interstellar dust / some other medium we aren't currently aware of.
    • A build up of materials that hadn't been accounted for on the sensor array while traveling to where the probe currently sits.
    • We really did miscalculate how many gal
    • by cusco ( 717999 )

      The previous estimate was made using the Hubble Deep Field image, where they pointed Hubble at one of the emptiest spots they could see and left it there for a month collecting as many photons as they could. The image, while stunningly beautiful, surprised astronomers by the stunning number of galaxies. It's certainly possible that there just happens to coincidentally be more galaxies in this view than there would be in any other random direction. On the other hand it's also possible that the issue lies

  • by Tx ( 96709 ) on Wednesday January 13, 2021 @12:37PM (#60938690) Journal

    I'm kind of confused by the article on hubblesite. It starts off with the quote about there not being enough light to account for two trillion of galaxies and so there must be fewer galaxies than thought, but by the end of the article, it's talking about there being more light than can be accounted for, and possibly more galaxies than previously thought. This bit;

    So, what could be the source of this leftover glow? It’s possible that an abundance of dwarf galaxies in the relatively nearby universe lie just beyond detectability. Or the diffuse halos of stars that surround galaxies might be brighter than expected. There might be a population of rogue, intergalactic stars spread throughout the cosmos. Perhaps most intriguing, there may be many more faint, distant galaxies than theories suggest.

    I'm assuming I misread or misunderstood something, anyone want to enlighten me?

    • by aliquis ( 678370 )

      We can't know as we can't observe it as we don't live in space!

      - AAAAH!!
      - You see. It's true.

      YouTube: S.P.O.C.K. - In Space No One Can Hear You scream. [youtube.com]

    • by Tablizer ( 95088 )

      As best I can interpret it, they identified the light from galaxies and different light from an unknown source. The first was lower than expected but the second was higher than expected (or perhaps not even expected).

      Since NH's cameras can see in different wavelengths, perhaps they used this info as a rough spectrograph to separate galaxy light from non-galaxy light.

    • by kvutza ( 893474 )

      Hi, enlightenment is my specialization. The next text is according to my skimming of the article [hubblesite.org]. First of all, the overall detected light has to get removed the light from sort-of local sources, that is anything within this galaxy. Notice that is is quite involved, mostly due to dispersion of light on dust, etc.

      After that, you remove light from other galaxies. You start with removing light of bright galaxies, then you continue with a removal of light of dimmer galaxies. At some point the ambient light arou

  • That is different from them not being there.

    Baby don't see mommy either, when the hands are in-between.

    So... did we do anything to check if maybe there is more obstruction than we thought?
    Gravitational anti-lensing by dark something?

  • Aren't we supposed to live in a (large?) cluster of galaxies within the or the second biggest void we know of? I assume that affect what you think of the rest of the universe if you don't take that into account because if you look nearby in that case it would seem denser than what it may be in general then again look a bit further and it wouldn't seem so.

    Also this is just the observable universe, it's assumed to be like 93 billion light years across right? The problem is that we can't see stuff which would

    • The age of the Universe is not calculated by how far we can see. It is calculated in 2 ways, studying globular clusters, specifically the lifecycle of stars in those clusters. Second by extrapolating the current low density back in time to a very dense state. The two independent calculations are in good agreement so scientists are fairly confided on the age of the Universe. That is not to say that the Universe is not much larger then what we can see or even infinite, but this doesn't affects its age.
      • by aliquis ( 678370 )

        Where did I say it affected the age?

        I've never said whatever you interpreted it and are replying to.

        What I am saying is that we can't see light which haven't reached us and the 93 billion light years across isn't the size of the universe it's the size of THE OBSERVABLE universe.

        And that's very relevant because it seem weird to talk about 200 billion galaxies in a universe you don't know how large it is. I assume they mean 200 billion galaxies IN THE OBSERVABLE UNIVERSE. As the universe is expanding at dista

  • There's a Miss Philadelphia contest, there's a Miss Pennsylvania contest, a Miss America contest and even a Miss Universe contest....
    I wonder why the town of Big Beaver, Pennsylvania has never had a beauty contest?

  • by nospam007 ( 722110 ) * on Wednesday January 13, 2021 @02:13PM (#60939056)

    - and I'm rather dissatisfied...
    It does not control the Universe. Not even remotely.

Time is the most valuable thing a man can spend. -- Theophrastus

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